F. A. Cheeín, J. Toibero, F. di Sciascio, R. Carelli, F. Pereira
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引用次数: 10
摘要
提出了一种移动机器人在执行SLAM (Simultaneous Localization and Mapping)算法时构建环境不确定性地图的方法。SLAM算法在扩展卡尔曼滤波器(EKF)上实现,并从周围环境中提取角(凸和凹)和线(与墙壁相关)。导航方法引导机器人运动到具有较高不确定性的环境区域。区域的不确定性通过在相应的代表性点计算的概率表征来指定。这些点由蒙特卡罗实验得到,它们的概率由高斯和法估计,避免了耗时的地图网格化过程。移动机器人在其上实现了轮廓跟随控制器,以驱动机器人到达不确定点。SLAM在真实环境中的实时实验也包括在本工作中。
Monte Carlo uncertainty maps-based for mobile robot autonomous SLAM navigation
This paper presents an uncertainty maps construction method of an environment by a mobile robot when executing a SLAM (Simultaneous Localization and Mapping) algorithm. The SLAM algorithm is implemented on a Extended Kalman Filter (EKF) and extracts corners (convex and concave) and lines (associated with walls) from the surrounding environment. A navigation approach directs the robot motion to the regions of the environment with the higher uncertainty. The uncertainty of a region is specified by a probability characterization computed at the corresponding representative points. These points are obtained by a Monte Carlo experiment and their probability is estimated by the sum of Gaussians method, avoiding the timeconsuming map-gridding procedure. The mobile robot has a contour-following controller implemented on it to drive the robot to the uncertainty points. SLAM real time experiments within real environments are also included in this work.
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